Science
Mechanism of Action
This (AB)n copolymer utilizes diisopropanolamino groups to establish high substantivity, selectively bonding to negatively charged, damaged sites on the hair and skin surface. Its unique PEG-modified structure ensures the resulting protective barrier remains water-vapor permeable, maintaining essential breathability while reducing mechanical friction and improving surface smoothness.
Research
Clinical Evidence
High confidence3%
Key findings
- 01 Mechanical resistance trials at 3.0% concentration demonstrated a statistically significant reduction in fiber breakage on heat-stressed hair compared to standard silicones.
- 02 Comprehensive salon and laboratory paneling confirmed significant improvements in surface slipperiness, softness, and color retention in finished formulations.
Transparency
Dusting Analysis
To achieve measurable improvements in mechanical resistance and surface flexibility, concentrations of 1% or higher are required. Products listing this ingredient near the bottom of the deck for marketing claims only (below 0.5%) likely fail to deliver the polymer's structural benefits.
The Formula
Formulation
Stability
Supplied as a nonionic emulsion; should be incorporated during the cool-down phase (below 40°C) with continuous mixing to ensure emulsion integrity.
Synergies
- Cationic surfactants
- Other nonionic emulsifiers
- Hair colorants
Conflicts
- High electrolyte concentrations
- Oxidizing agents
- pH values below 4 or above 8
Safety
Safety Profile
Classified within the amodimethicone and PEG-modified silicone categories, which are traditionally recognized as safe in leave-on and rinse-off applications up to 5%.
Your Skin
Skin Compatibility
Our Assessment
Verdict
A sophisticated conditioning agent that provides superior mechanical protection and a lightweight, breathable finish for damaged hair and skin.
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References
Sources